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When you have a circular buffer represented as an array, and you need the index to wraparound (i.e., when you reach the highest possible index and increment it), is it "better" to:

return (++i == buffer.length) ? 0: i;


return ++i % buffer.length;

Has using the modulo operator any drawbacks? Is it less readable than the first solution?


Of course it should be ++i instead of i++, changed that.


One interesting note: I found the first line of code in ArrayBlockingQueue's implementation by Doug Lea.

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A subjective question like this one can only bring "both are good" replies. – Riduidel May 10 '10 at 9:33
@Riduidel: Or "both are bad". – Daniel Daranas May 10 '10 at 9:38
I personally like the second best because I love the % operator :-). – helpermethod May 10 '10 at 9:40
does bufer.length ever get changed independantly of i? – WW. May 10 '10 at 9:44
Is there any drawback of using clear code, e.g. i++; if (i == buffer.length) { return 0; } else { return i;} ? Much more easily understood which is nice when you check some code quickly. – Makis May 10 '10 at 10:31

12 Answers 12

up vote 9 down vote accepted

Update: OP has admitted in a comment that it should have been pre-increment instead. Most of the other answers missed this. There lies proof that the increment in this scenario leads to horrible readability: there's a bug, and most people couldn't see it.

The most readable version is the following:

return (i == buffer.length-1) ? 0 : i+1;

Using ++ adds unnecessary side effect to the check (not to mention that I strongly feel that you should've used pre-increment instead)

What's the problem with the original code? Let's have a look, shall we?

return (i++ == N) ? 0 : i; // OP's original, slightly rewritten

So we know that:

  • i is post-incremented, so when i == N-1 before the return statement, this will return N instead of wrapping to 0 immediately
    • Is this intended? Most of the time, the intent is to use N as an exclusive upper bound
  • The variable name i suggests a local variable by naming convention, but is it really?
    • Need to double check if it's a field, due to side-effect

In comparison:

return (i == N-1) ? 0 : i+1; // proposed alternative

Here we know that:

  • i is not modified, doesn't matter if it's local variable or field
  • When i == N-1, the returned value is 0, which is more typical scenario

The % approach

Alternatively, you can also use the % version as follows:

return (i+1) % N;

What's the problem with %? Well, the problem is that even though most people think it's the modulo operator, it's NOT! It's the remainder operator (JLS 15.17.3). A lot of people often get this confused. Here's a classic example:

boolean isOdd(int n) {
   return (n % 2) == 1; // does this work???

That code is broken!!! It returns false for all negative values! The problem is that -1 % 2 == -1, although mathematically -1 = 1 (mod 2).

% can be tricky, and that's why I recommend the ternary operator version instead. The most important part, though, is to remove the side-effect of the increment.

See also

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You're right, it should be ++i. Just changed that. – helpermethod May 10 '10 at 9:59
@Helper: and THAT's why you shouldn't use increment in this case; just use plain +1 expression, it's a LOT more readable. There's your proof: you made a mistake, and most people couldn't even spot it. – polygenelubricants May 10 '10 at 10:03
@poly I definitely learned my lesson. – helpermethod May 10 '10 at 10:14
+1, very nice answer with a solid motivation. – wasatz May 10 '10 at 10:40
"there's a bug, and most people couldn't see it." People didn't see the bug, yes, but they couldn't see it either. The original code just had a different meaning. You can't tell that it's a bug without the context. – Daniel Daranas May 10 '10 at 12:30

Don't ask me to choose between two options which both contain postincrement (*) mixed with expression evaluation. I'll say "none".

(*) Update: It was later fixed to preincrement.

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Why? Pre- and post-incrementing are frequently used like that, I would expect it to be very readable for many programmers. – Oak May 10 '10 at 10:10
Then surprise: Nobody can read post and pre increment in expressions, and they should never, ever be used like that because it's flat out unnecessary to introduce such bugs for the sake of one extra local variable. – Puppy May 10 '10 at 10:53
@Oak The original poster got them wrong. If you use these constructs, you're bound to have some errors and/or misunderstandings. I had to ask myself "is this (postincrement) what he intended, or just a bug?", and how could I tell, without a context? I know the answer just because he edited the question later. What if that code was written by a former coworker, whom I can't ask anymore? – Daniel Daranas May 10 '10 at 12:36

Wouldn't the i++ % buffer.length version have the drawback that it keeps incrementing i, which could lead to it hitting some sort of max_int/max_long/max_whatever limit?

Also, I would split this into

i = (i++ == buffer.length) ? 0 : i;
return i;

since otherwise you'd most likely have a bug.

share|improve this answer
+1: I was just about to point out the overflow problem, too - you were faster. :-) – Frerich Raabe May 10 '10 at 9:38

The first one will give you an ArrayIndexOutOfBoundsException because i is never actually reset to 0.

The second one will (probably) give you an overflow error (or related undesirable effect) when i == Integer.MAX_VALUE (which might not actually happen in your case, but isn't good practice, IMHO).

So I'd say the second one is "more correct", but I would use something like:

i = (i+1) % buffer.length;
return i;

Which I think has neither of the two problems.

I went ahead and tested everyone's code, and was sad to find that only one of the previous posts (at the time of this post's writing) works. (Which one? Try them all to find out! You might be surprised!)

public class asdf {

    static int i=0;
    static int[] buffer = {0,1,2};

    public static final void main(String args[]){
        for(int j=0; j<5; j++){

    public static int getIndex(){
//      return (++i == buffer.length) ? 0: i;
//      return ++i % buffer.length;

//      i = (i++ == buffer.length) ? 0 : i;
//      return i;

//      i++;
//      if (i >= buffer.length) 
//      {
//        i = 0;
//      }
//      return i;

//      return (i+1 == buffer.length) ? 0 : i+1;

        i = (i+1) % buffer.length;
        return i;


Expected output is: 1 2 0 1 2

Apologies in advance if there's a coding error on my part and I accidentally insult someone! x.x

PS: +1 for the previous comment about not using post-increment with equality checks (I can't actually upmod posts yet =/ )

share|improve this answer
So which ones worked and which ones do not? – WW. May 10 '10 at 22:12
Spoiler alert! Only the uncommented code and the 6-liner work, AFAIK. – iffy May 10 '10 at 23:32

I prefer the condition approach even if we use unsigned type, modulo operation has drawbacks. Using modulo has a bad side effect when the number tested rolls back to zero


255 % 7 == 3

So if you use byte (unsigned char) for example, when the number roll after 255 (i.e. zero), it will not result to 4. Should result to 4 (when 256 % 7), so it rotates correctly. So just use testing(if and ternary operator) constructs for correctness

If for achieving performance, and if the number is multiple of 2 (i.e. 2, 4, 8, 16, 32, 64, ...), use & operator.

So if the buffer length is 16, use:

n & 15

If buffer length is 64, use 63:

n & 63

Those rotate correctly even if the number goes back to zero. By the way, if the number is multiple of 2, even the modulo/remainder approach would also fit the bill, i.e. it will rotate correctly. But I can hazard a guess that & operation is faster than % operation.

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+1 for bitwise AND. Didnt konw that trick, thnx! – Henri May 10 '10 at 10:21

I think the second solution has the clear advantage that it works, whereas the first does not. The first solution will always return zero when i becomes bigger than buffer.length because i is never reset.

The modulo operator has no drawbacks.

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This is very subjective and depends on what your colleagues are used to see. I would personally prefer the first option, as it expresses explicitly what the code does, i.e. if the buffer length is reached, reset to 0. You don't have to perform any mathematical thinking or even know what the modulo does (of course you should! :)

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Surely it would be more readable to use an if:

if (i >= buffer.length) 
  i = 0;
return i;

Depends a bit if buffer.length ever changes.

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No way. Ternary operator is designed for this kind of case. if is terrible choice here. – polygenelubricants May 10 '10 at 9:45
@polygenelubricants: Ternary operator should be banned. :-) This is most readable version so far. – Peter Štibraný May 10 '10 at 10:03
I think the ternary operator fits perfectly here, the real problem is that it's not as readable as it could be. If the "if" would be an expression (like in JavaFX), it would look like if(i >= buffer.length) 0 else i – helpermethod May 10 '10 at 10:35
@Helper: I'm with you. Use if when branching is at statement level (do this or do that). When branching is at expression level (do the following with this value or that value), use ternary. – polygenelubricants May 10 '10 at 11:02

Personally, I prefer the modulo approach. When I see modulo, I immediately think of range limiting and looping but when I see the ternary operator, I always want to think more carefully about it simply because there are more terms to look at. Readability is subjective though, as you already pointed out in your tagging, and I suspect that most people will disagree with my opinion.

However, performance is not subjective. Modulo implies a divison operation which is often slower than a comparison against zero. Obviously, this is more difficult to determine in Java since we're not compiling to native code until the jitter kicks in.

My advice would be write which ever you feel is most appropriate (so long as it works!) and get a colleague (assuming you have one) to asses it. If they disagree, ask another colleague - then go with the majority vote. #codingbydemocracy

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I prefer the modulo operator for the simple reason it is shorter. And any program should be able to dream in modulo since it is almost as common as a plus operator.

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% is not the modulo operator; it's the remainder operator (JLS 15.17.3). In Java, -1 % 2 == -1. In mathematics, -1 mod 2 = 1. – polygenelubricants May 10 '10 at 9:51

It is also worth noting, that if our buffer has length of power of 2 then very efficient bit manipulation will work:

idx = (idx + 1) & (length - 1)
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You can use also bit manipulation:

idx = idx & ((idx-length)>>31)

But it's not faster than the if-variant on my machine.

Here is some code to compare running time in C#:

Stopwatch sw = new Stopwatch();
long cnt = 0;
int k = 0;
int modulo = 10;

k = 0;
cnt = 0;
for ( int j=0 ; j<100000000 ; j++ ) {
    k = (k+1) % modulo;
    cnt += k;
Console.WriteLine( "modulo cnt=" + cnt.ToString() + "     " + sw.Elapsed.ToString() );

k = 0;
cnt = 0;
for (int j = 0; j < 100000000; j++) {
    if ( ++k == modulo )
        k = 0;
    cnt += k;
Console.WriteLine( "if     cnt=" + cnt.ToString() + "     " + sw.Elapsed.ToString() );

k = 0;
cnt = 0;
for (int j = 0; j < 100000000; j++) {
    k = k&((k-modulo)>>31);
    cnt += k;
Console.WriteLine( "bit    cnt=" + cnt.ToString() + "     " + sw.Elapsed.ToString() );

The Output:

modulo cnt=450000000     00:00:00.6406035
if     cnt=450000000     00:00:00.2058015
bit    cnt=450000000     00:00:00.2182448
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